It sounds a lot like you'd like a language with a powerful macro system, like some kind of Scheme. Macros allow for exactly this kind of syntax extension, where fragments of code from the original language can be embedded into the new forms that you propose (I assume you want to be able to say
(a:1+1 b:2*2), etc.). Furthermore, a macro system doesn't complicate your build process or destroy error message locations, the way an external preprocessor does.
But there's bad news, which is that there aren't any (non-esoteric) languages I know of that have enough room in their syntax to provide the exact syntax that you specify.
Here's the syntax that I came up with:
(: a 1 b 2 c 3)
; or, more clearly
(: (a 1) (b 2) (c 3))
(:lst 'x 'y 5)
(if you allow barewords on the RHS of a hash, you're going to have a tough time referencing variables, so I assumed you didn't want that)
Anonymous attribute-accessing function:
Like the former, but taking multiple arguments by currying them and then returning a list:
(anon. a a)
The good news is that you don't need to write a lexer or parser or muck around with the build system to add this syntax to Scheme; it's just a few lines of code, and importing syntax is just like importing functions.
The first macro (named
:) is dead simple to write:
(define-syntax-rule (: (k v) ...)
(make-hash `((k ,v) ...)))
The second one (named
:lst) is harder, since you need to generate the indices. It'd probably be under ten lines of code, but I'm too lazy to write them...
The third macro (
anon.) is a little non-trivial, but sort of fun, so here it is:
((anon. attr attrs ...)
(lambda (x) (cons (hash-ref x 'attr) (anon. attrs ...) )))
(Note that I've assumed, for the sake of consistency, that you want
anon. to always return a list; doing otherwise would require adding an extra clause to
syntax-rules for the special case.) I'm not sure that
anon. would really be a useful macro, but that's between you and your codebase.
If you want to hack with macros, I'd suggest you try out my favorite Scheme flavor, Racket. It has a particularly macro-oriented world view (see this blog post, written back when Racket was called "PLT Scheme").